KR101912483B1 - Device for fastening a perforated block, and perforated block - Google Patents

Abstract

In an apparatus for fastening a perforated block (1) in a metal melt container, the perforated block (1) comprises at least one Can be fastened by a clamping wedge (36). The clamping jaw 35 acts on the clamping surface 13 formed on the circumferential surface of the perforated block 1.
Each clamping wedge 36 is guided in the carrier plate 33 so that the clamping jaws 35 connected thereto are movable transversely in the longitudinal extent while being able to move in the transverse direction. As a result, the perforated block can be precisely positioned and fastened to the carrier plate 33 in a simple manner.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a device for fastening a perforated block to a perforated block,

The present invention relates to a bezel comprising a metal melt according to the preamble of claim 1 and to an apparatus for fastening a well block to a well block.

The wellblock is used in a continuous casting line with a bezel for casting metal melts, in particular as a fixed spout element of the tundish type. The tundish typically has a two-part casting channel that includes a well block centered through an opening in the bezel side and a replaceable nozzle on the side of the die.

The wellblock is fixedly formed at the bottom of the bezel, and is particularly made of a refractory ceramic material, forming a wall into the bezel. The nozzle is made of a heat-resistant refractory material and can be easily replaced. The separation point between the wellblock and the nozzle has been found to be particularly important, particularly where the leakage of liquid metal escapes from the separation point and the atmosphere, especially oxygen, is exposed to the melt flow, negatively affecting the quality of the metal material. Therefore, the separation point should be prevented as much as possible, but serious cracks tend to occur during the casting process.

Thus, it has already been proposed to prevent the formation of cracks and cracks in the separation-point region with the aid of specially configured nozzles. This nozzle has a stop surface that can apply a contact force to push the nozzle into the well block. Unfortunately, it has been found that these devices are mechanically complex and do not have the intended long term stability.

It is therefore an object of the present invention to provide an apparatus in which a well block for a molten bezel of metal can be easily fastened in a housing that can be secured to a long-term stable bezel.

According to the invention, this object is achieved by a device having the features of claim 1 and a well block according to claim 9.

Crack formation in the reference surface area between the well block and the nozzle, for example, with the device according to the invention can be effectively prevented over the entire casting time.

The well block, which can be fastened to a housing that can be secured to the metal melting bezel, can be fastened by at least one clamping wedge that can be inserted laterally into the through opening, and each clamping wedge or clamping jaw, Is formed on the circumferential surface of the block and is connected to the clamping surface for clamping the well block.

In one particular embodiment of the invention, the housing comprises a nozzle exchanger having a carrier plate and a wedge guide plate, the wedge guide plate being fixedly connected to the carrier plate. The wedge guide plate has an opening for receiving the well block and at least one guide groove is defined by the opening for guiding and supporting the clamping wedge so that the wedge can be flat and permanently pressed to the well block having the ramped wedge surface Partially overlapped.

One particular design of the clamping wedge allows to create a permanent mechanical tension between the wedge guide plate and the well block, i.e. a tension to equalize heat and vibration, thus preventing cracking of the reference surface area during the casting process.

Another embodiment of the device has the features of the dependent claims of claim 1.

In particular, a well block suitable for use in this type of device has a clamping sheet that interacts with the wedge surface on the bezel side.

The clamping wedges according to the present invention can be inserted, retensioned or replaced without special tools, which substantially simplifies the repair work.

The following exemplary embodiments and other advantages of the present invention are explained in more detail by the drawings. These are illustrated as follows:

1 is a schematic exploded view of an apparatus according to the invention for clamping a well block to a carrier plate of a nozzle exchanger;
2 is a perspective view of a clamping wedge according to the present invention;
3 is a schematic view of a vertical section through an apparatus according to the invention for clamping a well block to a carrier plate of a nozzle exchanger;
4 is a cross-sectional view of a device according to the invention for clamping a well block to a carrier plate of a nozzle exchanger;
Figure 5 is a schematic diagram showing the operating mode of the clamping wedge according to the invention;
Figure 6 is a schematic view of a vertical section through a well-known well block;
Figure 7 is a schematic view of a vertical section through a well block according to the invention with a serrated groove;
8 is a schematic view of a vertical section through a well block according to the present invention with a groove in a trapezoidal shape;
Figure 9 is a schematic view of a vertical section through a well block according to the invention with a trapezoidal projection;
10 is a schematic view of a vertical section through a well block according to the present invention with conical sides;
11 is a schematic view of a vertical section through a version of the apparatus according to the invention for clamping a well block to a carrier plate of a nozzle exchanger;
Figure 12 is a schematic exploded view of the device and the well block according to Figure 11;

1 shows an exploded view of a device according to the invention for fastening a well block 1 to a bezel for a metal melt. In this apparatus, the base plate 19 is embedded in the lower part of the bezel. The base plate 19 has two wedge pins 20 on which the carrier plate 3 can be fastened. The carrier plate 3 forms a base for the nozzle exchanger 2 on one side On the other hand, there is a carrier for the well block 1 which is flat with its base shoulder 14.

According to the invention, a wedge guide plate (4) is provided between the carrier plate (3) and the base plate (19). The wedge guide plate (4) has a circular opening (5) through which the well block (1) passes in a mounted state. To this end, the well block (1) is provided with a sloping clamping surface (13). The wedge guide plate 4 also has at least one guide groove 7 into which the clamping wedge 6 can be inserted. The clamping wedge 6 is supported by support portions 11, 11 'laid flat on the support surface 8 of the guide groove 7. The guide grooves 7 are superimposed by the circular openings 5 and are arranged so that the cutouts 9 are formed opposite the support surfaces 8 of the guide grooves 7. [ Preferably, the wedge guide plate 4 is formed of two guide grooves 7, 7 'which can proceed parallel and into which the clamping wedges 6, 6' can be introduced. In the mounted state, the clamping wedges 6, 6 'are placed with the wedge surface 12 with a force applied against the clamping surface 13 of the well block 1.

A preferred embodiment of a clamping wedge 6 according to the invention is shown in Fig. The clamping wedge (6) has supports (11, 11 ') which are supported against the support surface (8) of the guide groove (7). The wedge surface 12 facing toward the well block 1 has the same slope as the clamping surface 13 of the well block 1. [ The recess between the two support portions 11, 11 'enables the flexible clamping of the clamping wedge 6.

The apparatus shown in section in Fig. 3 has a wedge guide plate 4 fixed to the carrier plate 3. This allows the well block (1) to be fastened before fitting. Here, the well block 1 is guided through the opening 5 of the wedge guide plate 4 and is disposed on the carrier plate 3 together with the circumferential base shoulder 14. By inserting the clamping wedges 6, 6 ', the well block 1 and the nozzle 21 are clamped so that the contact surface 22 is pressed against each other in a stretched state. In the final fitting step, the carrier plate 3 is fastened to the base plate 19 with the aid of a wedge pin 20.

4 shows the configuration of the wedge guide plate 4 and the mode of operation of the device according to the invention. In the mounted state, the clamping wedges 6, 6 'are supported with their supporting portions 11, 11' relative to the supporting surfaces 8 of the respective guide grooves 7. In the area between the two support portions 11, 11 ', the clamping wedges 6, 6' are pressed onto the clamping surface of the well block 1 as shown in FIG.

Figure 6 also shows a well-known type of well block 1 comprising a base shoulder 14 and a through opening D. [ In the first embodiment according to the present invention as shown in Fig. 7, the well block 1 has a clamping sheet 15 having a serrated cross section on the bezel side of the base shoulder 14. The clamping surface 13 of the clamping sheet 15 interacts with the wedge surface 12 of the clamping wedges 6, 6 '.

Figure 8 shows another embodiment of a well block 1 according to the present invention having a circular clamping sheet 15 having a substantially trapezoidal cross section. The clamping sheet 15 may be curved in the form as considered in the section.

It will be appreciated that the well block 1 may be provided with a clamping lug 16 having an inclined clamping surface 13 as shown in Fig. 9 instead of the clamping sheet 15. Fig.

10, without providing a specially formed clamping sheet 15 or specially formed clamping lugs 16 on the bezel side of the base shoulder 14 in the other configuration of the well block 1, The block 1 is conical so that the conical side surface 17 forms a side angle b corresponding to the inclination of the wedge surface 12 of the clamping wedge 6. [

11 and 12 illustrate a version of the apparatus for fastening the well block 1 to a bezel containing a metal melt, the differences according to the comparison with the apparatus according to Figs. 1 to 4 are now as follows.

The well block 1 includes a clamping jaw 35 connected to each of the clamping wedges for clamping the clamping jaws 35 through clamping jaws 35 which are horizontally movable through the through openings D so that the clamping jaws 35 connected to the respective clamping wedges are connected to the clamping surface 13 formed in the circumference VYAUSS of the well block 1. [ And is fastened by a wedge (36). Each clamping wedge (36) is guided in a direction transverse to the carrier plate (33) in its longitudinal extension and the clamping jaw (35) connected to the clamping wedge is movable in the transverse direction.

The clamping wedge 36 moves along the interfacing wedge surfaces 36 ', 39 provided thereon and on the carrier plate 33. The cam 41 'is also assigned to a wedge which is connected to the longitudinal groove 41 of the carrier plate 33 which runs parallel to the wedge surface 39. The clamping jaw 35 of that portion is guided by the guide cam 35 'of each groove 37' of the covering plate 37 which can be fastened to the carrier plate 33 in a nearly radial manner on the circumference of the circular well block do.

The clamping jaws 35 also each have bolts 35 "protruding downwardly, which are guided in the elongated grooves 42 of the clamping wedge 36, and when the clamping wedge 36 is moved, The groove 42 travels tangentially to the circumference of the circular well block rather than parallel to the wedge surface 39 so that an intended quasi-transverse movement of the groove 42 occurs.

The clamping of the well block causes the clamping jaws 35 to move toward the well block 1 and to move the well blocks from both sides of the circular clamping surface 13 when the clamping wedge 36 is pulled away from the well block 1. [ Clamping. Preferably, a two round clamping surface 43 is provided in the clamping jaw 35 for optimal clamping, respectively. By means of a clamping force acting downwardly at an angle, the well block 1 is positioned at the opening of the carrier plate 33 such that the well block is always at the same height relative to the nozzle exchanger, (14).

When the clamp jaw 35 is released from the well block 1, the clamping wedge 36 is pushed or pressed against the well block, which allows for easy manipulation.

While the present invention has been fully described by way of the foregoing exemplary embodiments, it is to be understood that the invention may be otherwise modified. Thus, for example, it is of course possible that the clamping surface 13 may be in the form of a circumferential circular surface or a polygonal surface.

The refractory sleeve can generally be used as a well block, and conventional slide opening and closing can be provided instead of the nozzle exchanger. It is also contemplated that a clamping jaw may or may not be provided on just one clamping wedge, and a fixed stop or the like is provided on the opposite side of the well block 1.

Claims (12)

A method for fastening a well block (1) having a through opening (D) to form a bezel spout and to be fastened to a housing that can be secured to a bezel, to a bezel comprising a metal melt,
The well block 1 is connected to the clamping surface 35 formed on the circumferential surface of the well block 1 by a clamping jaw 35 connected to the clamping wedge 36, Can be fastened by one or more clamping wedges (36) which can be laterally inserted into the through-opening (D) for clamping,
Characterized in that each said clamping wedge (36) is guided in a direction transverse to the carrier plate (33) in its longitudinal extension, and a clamping jaw (35) connected to said clamping wedge is movable in said traversing direction Way. A method for fastening a well block (1) having a through opening (D) to form a bezel spout and to be fastened to a housing that can be secured to a bezel, to a bezel comprising a metal melt,
The well block 1 is connected to the clamping surface 13 formed on the circumferential surface of the well block 1 and each clamping wedge 6 is connected to the through hole D Which can be inserted into the guide grooves 7 of the guide plate 4 of the housing by means of one or more clamping wedges 6 which can be inserted horizontally into the guide plate 4 of the housing Lt; / RTI > An apparatus for carrying out the method according to claim 1 comprising a housing having a carrier plate (33) which can be fixed to the bezel, and a well block (1) which forms a bezel spout and has a through opening (D) As a result,
There is provided at least one clamping wedge 36 which can be inserted laterally into the through opening D and guided in a direction transverse to the carrier plate 33 in its longitudinal extension,
A clamping jaw (35) connected to the clamping wedge (36) is movable in the transverse direction,
Characterized in that the clamping jaw (35) is connected to a clamping surface (13) formed on the circumferential surface of the well block (1) and clamps the well block (1) by a wedge. 4. A method as claimed in claim 3, wherein at least one clamping wedge (36) is guided in the carrier plate (33) to move along the interacting wedge surfaces (36 ', 39) provided on the carrier plate (33) And performing a quasi-transverse movement. 4. A clamping device according to claim 3, characterized in that two clamping wedges (36) arranged parallel to each other of the carrier plate (33) are provided with clamping jaws (35) connected respectively to the clamping wedges (36) And clamps the well block (1) to both sides of the clamping surface (13) when it is withdrawn and released from the well block. A housing having a carrier plate (33) fixed to the bezel and fixedly connected to the wedge guide plate (4), and a well block (1) forming a bezel spout and having a through opening (D) An apparatus for performing a method according to claim 1,
There is provided at least one clamping wedge (6) insertable transversely into the through opening (D) and insertable in a guide groove (7) of a wedge guide plate (4) of the housing,
Characterized in that each clamping wedge (6) is connected to a clamping surface (13) formed on the circumferential surface of the well block (1) and clamps said well block (1) by a wedge. 7. A device according to claim 6, characterized in that the base plate (19) comprises a housing with a carrier plate (3) of the nozzle exchanger (2) and a wedge guide plate , Wherein the wedge guide plate (4) can be fixedly connected to the carrier plate (3) and one or more guide grooves (5) partially overlapping the opening (5) for guiding and supporting the clamping wedge 7). ≪ / RTI > A clamping wedge (6) as claimed in claim 6 or 7, characterized in that the guide groove (7) has a support surface (8) for supporting the clamping wedge (6) (9). ≪ / RTI > A clamping wedge according to claim 8, characterized in that the clamping wedge (6) comprises two spaced apart support parts (11, 11 ') arranged and designed to support against the support surface (8) of the guide groove (7) Lt; / RTI > 7. A method according to claim 6, characterized in that the clamping wedge (6) comprises an inclined or rounded wedge surface (7) which is formed such that, in the clamped state, the wedge surface is pressed against the clamping surface (13) of the complementary shape (tapered or rounded) (12). ≪ / RTI > delete delete

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